Mass spectra of 0-- and 0+- hidden-heavy baryoniums
Abstract
In this work, the spectra of the prospective exotic hidden-charm and hidden-bottom baryonium, viz. the baryon-antibaryon states, with JPC=0-- and 0+- are investigated in the framework of QCD sum rules. The non-perturbative contributions up to dimension 12 are taken into account. Numerical results indicate that there might exist 3 possible 0-- hidden-charm baryonium states with masses (5.220.26), (5.520.25), and (5.460.24) GeV, and 5 possible 0+- hidden-charm baryonium states with masses (4.760.28), (5.240.28), (5.160.27), (5.520.27), and (5.690.27) GeV, respectively. The corresponding hidden-bottom partners are found lying in the range of 11.68-12.28 GeV and 11.38-12.33 GeV, respectively. The possible baryonium decay modes are analyzed, which are hopefully measurable in LHC experiments.
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